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Publication DateJournal of Endodontics, ISSN 0099-2399, 2006, Volume 32, Issue 11, pp. 1053 - 1056
The antibacterial effects of gray-colored MTA (GMTA) and white-colored MTA (WMTA) against and were assessed in vitro using the tube dilution test. Broth tubes...
Enterococcus faecalis | mineral trioxide aggregate | MTA | Streptococcus sanguis | tube dilution | WHITE | BACTERIA | GRAY | ENDODONTIC INFECTIONS | ANTIFUNGAL ACTIVITY | PERFORATIONS | REPAIR | CANDIDA-ALBICANS | DENTISTRY, ORAL SURGERY & MEDICINE | INFECTED ROOT CANALS | END FILLING MATERIALS | Temperature | Enterococcus faecalis - drug effects | Humans | Color | Materials Testing | Enterococcus faecalis - growth & development | Calcium Compounds - administration & dosage | Streptococcus sanguis - growth & development | Dose-Response Relationship, Drug | Microbial Sensitivity Tests | Oxides - pharmacology | Aluminum Compounds - administration & dosage | Streptococcus sanguis - drug effects | Time Factors | Silicates - administration & dosage | Bacteriological Techniques | Root Canal Filling Materials - pharmacology | Aluminum Compounds - pharmacology | Anti-Bacterial Agents - pharmacology | Anti-Bacterial Agents - administration & dosage | Drug Combinations | Oxides - administration & dosage | Calcium Compounds - pharmacology | Silicates - pharmacology | Antibacterial agents
Enterococcus faecalis | mineral trioxide aggregate | MTA | Streptococcus sanguis | tube dilution | WHITE | BACTERIA | GRAY | ENDODONTIC INFECTIONS | ANTIFUNGAL ACTIVITY | PERFORATIONS | REPAIR | CANDIDA-ALBICANS | DENTISTRY, ORAL SURGERY & MEDICINE | INFECTED ROOT CANALS | END FILLING MATERIALS | Temperature | Enterococcus faecalis - drug effects | Humans | Color | Materials Testing | Enterococcus faecalis - growth & development | Calcium Compounds - administration & dosage | Streptococcus sanguis - growth & development | Dose-Response Relationship, Drug | Microbial Sensitivity Tests | Oxides - pharmacology | Aluminum Compounds - administration & dosage | Streptococcus sanguis - drug effects | Time Factors | Silicates - administration & dosage | Bacteriological Techniques | Root Canal Filling Materials - pharmacology | Aluminum Compounds - pharmacology | Anti-Bacterial Agents - pharmacology | Anti-Bacterial Agents - administration & dosage | Drug Combinations | Oxides - administration & dosage | Calcium Compounds - pharmacology | Silicates - pharmacology | Antibacterial agents
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Loading RightsMolecular Oral Microbiology, ISSN 2041-1006, 06/2017, Volume 32, Issue 3, pp. 181 - 196
Summary The commensal oral microbial flora has evolved with the human host to support colonization of the various intraoral sites without triggering a...
dental caries | oral microbiology | Streptococcus | biofilms | MICROBIAL INTERACTIONS | ORAL STREPTOCOCCI | PORPHYROMONAS-GINGIVALIS | SALIVARY ALPHA-AMYLASE | MICROBIOLOGY | EARLY-CHILDHOOD CARIES | POLYMICROBIAL INFECTION | ACQUIRED BACTERIAL-MENINGITIS | GRAM-POSITIVE BACTERIA | INNATE IMMUNE-RESPONSES | DENTISTRY, ORAL SURGERY & MEDICINE | HYDROGEN-PEROXIDE PRODUCTION | Symbiosis | Streptococcus sanguis - physiology | Dental Caries | Mouth - microbiology | Periodontitis | Streptococcus mutans - physiology | Humans | Biofilms - growth & development | Streptococcus sanguis - genetics | Streptococcus sanguis - growth & development
dental caries | oral microbiology | Streptococcus | biofilms | MICROBIAL INTERACTIONS | ORAL STREPTOCOCCI | PORPHYROMONAS-GINGIVALIS | SALIVARY ALPHA-AMYLASE | MICROBIOLOGY | EARLY-CHILDHOOD CARIES | POLYMICROBIAL INFECTION | ACQUIRED BACTERIAL-MENINGITIS | GRAM-POSITIVE BACTERIA | INNATE IMMUNE-RESPONSES | DENTISTRY, ORAL SURGERY & MEDICINE | HYDROGEN-PEROXIDE PRODUCTION | Symbiosis | Streptococcus sanguis - physiology | Dental Caries | Mouth - microbiology | Periodontitis | Streptococcus mutans - physiology | Humans | Biofilms - growth & development | Streptococcus sanguis - genetics | Streptococcus sanguis - growth & development
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Loading RightsInfection and Immunity, ISSN 0019-9567, 05/2016, Volume 84, Issue 5, pp. 1470 - 1477
Here, we report for the first time that the Streptococcus sanguinis nox gene encoding NADH oxidase is involved in both competition with Streptococcus mutans...
MUTANS | DIAGNOSIS | INFECTIOUS DISEASES | MANAGEMENT | THERAPY | GUIDELINES | COMPLICATIONS | INFECTIVE ENDOCARDITIS | IMMUNOLOGY | IDENTIFICATION | AMERICAN-HEART-ASSOCIATION | PNEUMONIAE | Streptococcus mutans - growth & development | Virulence Factors - genetics | Humans | Virulence | Streptococcus sanguis - genetics | Multienzyme Complexes - metabolism | Streptococcus sanguis - enzymology | Streptococcus sanguis - growth & development | Endocarditis, Bacterial - pathology | Endocarditis, Bacterial - microbiology | Streptococcal Infections - pathology | Streptococcus sanguis - pathogenicity | NADH, NADPH Oxidoreductases - metabolism | NAD - metabolism | Disease Models, Animal | NADH, NADPH Oxidoreductases - genetics | Rabbits | Streptococcal Infections - microbiology | Aerobiosis | Oxidation-Reduction | Multienzyme Complexes - genetics | Gene Knockout Techniques | Antibiosis | Animals | Virulence Factors - metabolism
MUTANS | DIAGNOSIS | INFECTIOUS DISEASES | MANAGEMENT | THERAPY | GUIDELINES | COMPLICATIONS | INFECTIVE ENDOCARDITIS | IMMUNOLOGY | IDENTIFICATION | AMERICAN-HEART-ASSOCIATION | PNEUMONIAE | Streptococcus mutans - growth & development | Virulence Factors - genetics | Humans | Virulence | Streptococcus sanguis - genetics | Multienzyme Complexes - metabolism | Streptococcus sanguis - enzymology | Streptococcus sanguis - growth & development | Endocarditis, Bacterial - pathology | Endocarditis, Bacterial - microbiology | Streptococcal Infections - pathology | Streptococcus sanguis - pathogenicity | NADH, NADPH Oxidoreductases - metabolism | NAD - metabolism | Disease Models, Animal | NADH, NADPH Oxidoreductases - genetics | Rabbits | Streptococcal Infections - microbiology | Aerobiosis | Oxidation-Reduction | Multienzyme Complexes - genetics | Gene Knockout Techniques | Antibiosis | Animals | Virulence Factors - metabolism
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Loading RightsJournal of Bacteriology, ISSN 0021-9193, 11/2005, Volume 187, Issue 21, pp. 7193 - 7203
Article Usage Stats Services JB Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley...
CELLS | GROUP-I STRAIN | BACTERIAL DIVERSITY | ACID TOLERANCE | ORAL-CAVITY | MICROBIOLOGY | HYDROGEN-PEROXIDE | MUTACIN-I | PLAQUE | NUCLEOTIDE-SEQUENCE | VIRIDANS GROUP STREPTOCOCCI | Streptococcal Infections - microbiology | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Humans | Adaptation, Biological | Bacterial Physiological Phenomena | Antibiosis | Hydrogen Peroxide - metabolism | Streptococcus sanguis - growth & development | Biofilms | Streptococcus mutans - physiology | Tooth - microbiology | Gene Expression Regulation, Bacterial | Bacteriocins - biosynthesis | Physiological aspects | Genetic aspects | Research | Microbial mats | Streptococcus mutans | Microbial Communities and Interactions
CELLS | GROUP-I STRAIN | BACTERIAL DIVERSITY | ACID TOLERANCE | ORAL-CAVITY | MICROBIOLOGY | HYDROGEN-PEROXIDE | MUTACIN-I | PLAQUE | NUCLEOTIDE-SEQUENCE | VIRIDANS GROUP STREPTOCOCCI | Streptococcal Infections - microbiology | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Humans | Adaptation, Biological | Bacterial Physiological Phenomena | Antibiosis | Hydrogen Peroxide - metabolism | Streptococcus sanguis - growth & development | Biofilms | Streptococcus mutans - physiology | Tooth - microbiology | Gene Expression Regulation, Bacterial | Bacteriocins - biosynthesis | Physiological aspects | Genetic aspects | Research | Microbial mats | Streptococcus mutans | Microbial Communities and Interactions
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Loading RightsPLoS ONE, ISSN 1932-6203, 06/2012, Volume 7, Issue 6, p. e40034
Streptococcus sanguinis is one of the most common agents of infective endocarditis. Spx proteins are a group of global regulators that negatively or positively...
GLOBAL TRANSCRIPTIONAL CONTROL | OXIDATIVE STRESS | COMPETENCE DEVELOPMENT | PYRUVATE OXIDASE | TERMINAL DOMAIN | BACILLUS-SUBTILIS | BIOLOGY | INFECTIVE ENDOCARDITIS | LACTOCOCCUS-LACTIS | RNA-POLYMERASE | BIOFILM FORMATION | Temperature | Genes, Bacterial - genetics | Oligonucleotide Array Sequence Analysis | Bacterial Proteins - chemistry | Streptococcus sanguis - genetics | Molecular Sequence Data | Colony Count, Microbial | Streptococcus sanguis - growth & development | Sequence Analysis, Protein | Endocarditis, Bacterial - pathology | Virulence - genetics | Adaptation, Physiological - genetics | Streptococcus pneumoniae - metabolism | Streptococcus sanguis - metabolism | Endocarditis, Bacterial - microbiology | Streptococcus sanguis - pathogenicity | Disease Models, Animal | Amino Acid Sequence | Rabbits | Streptococcus mutans - metabolism | Stress, Physiological - genetics | Bacterial Proteins - genetics | Oxidative Stress - genetics | Mutation - genetics | Hydrogen Peroxide - metabolism | Sequence Alignment | Animals | Bacterial Proteins - metabolism | Gene Expression Regulation, Bacterial | Hydrogen-Ion Concentration | Proteins | Hydrogen peroxide | Genetic transcription | Analysis | Endocarditis | Oxidative stress | Regulators | Virulence | Competitiveness | High temperature | Streptococcus infections | Bacteria | Hydrogen ion concentration | Neutropenia | Immunoglobulins | Acidic oxides | Gene expression | Strain | Streptococcus | DNA microarrays | Mutagenesis | Morphology | Stem cells | Competitive advantage | Regulation | Molecular biology | Transcription initiation | Temperature tolerance
GLOBAL TRANSCRIPTIONAL CONTROL | OXIDATIVE STRESS | COMPETENCE DEVELOPMENT | PYRUVATE OXIDASE | TERMINAL DOMAIN | BACILLUS-SUBTILIS | BIOLOGY | INFECTIVE ENDOCARDITIS | LACTOCOCCUS-LACTIS | RNA-POLYMERASE | BIOFILM FORMATION | Temperature | Genes, Bacterial - genetics | Oligonucleotide Array Sequence Analysis | Bacterial Proteins - chemistry | Streptococcus sanguis - genetics | Molecular Sequence Data | Colony Count, Microbial | Streptococcus sanguis - growth & development | Sequence Analysis, Protein | Endocarditis, Bacterial - pathology | Virulence - genetics | Adaptation, Physiological - genetics | Streptococcus pneumoniae - metabolism | Streptococcus sanguis - metabolism | Endocarditis, Bacterial - microbiology | Streptococcus sanguis - pathogenicity | Disease Models, Animal | Amino Acid Sequence | Rabbits | Streptococcus mutans - metabolism | Stress, Physiological - genetics | Bacterial Proteins - genetics | Oxidative Stress - genetics | Mutation - genetics | Hydrogen Peroxide - metabolism | Sequence Alignment | Animals | Bacterial Proteins - metabolism | Gene Expression Regulation, Bacterial | Hydrogen-Ion Concentration | Proteins | Hydrogen peroxide | Genetic transcription | Analysis | Endocarditis | Oxidative stress | Regulators | Virulence | Competitiveness | High temperature | Streptococcus infections | Bacteria | Hydrogen ion concentration | Neutropenia | Immunoglobulins | Acidic oxides | Gene expression | Strain | Streptococcus | DNA microarrays | Mutagenesis | Morphology | Stem cells | Competitive advantage | Regulation | Molecular biology | Transcription initiation | Temperature tolerance
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Loading RightsScientific Reports, ISSN 2045-2322, 12/2016, Volume 6, Issue 1, p. 38410
Controlling and reducing the formation of pathogenic biofilm on tooth surface is the key to the prevention and treatment of the biofilm-associated oral...
ADHESION | CELLS | BACTERIA | MULTIDISCIPLINARY SCIENCES | STREPTOCOCCUS-MUTANS BIOFILMS | GROWTH | PREVENTION | DECAPEPTIDE KSL | IDENTIFICATION | EXPRESSION | RGD | Plankton - drug effects | Streptococcus mutans - growth & development | Actinomyces viscosus - drug effects | Humans | Biofilms - growth & development | Lactobacillus acidophilus - drug effects | Delayed-Action Preparations - chemistry | Saliva - chemistry | Plankton - growth & development | Streptococcus sanguis - growth & development | Microbial Sensitivity Tests | Streptococcus sanguis - drug effects | Delayed-Action Preparations - pharmacology | Saliva - microbiology | Fibroblasts - microbiology | Lactobacillus acidophilus - growth & development | Actinomyces viscosus - growth & development | Biofilms - drug effects | Amino Acid Sequence | Antimicrobial Cationic Peptides - chemistry | Antimicrobial Cationic Peptides - pharmacology | Cells, Cultured | Durapatite - chemistry | Streptococcus mutans - drug effects | Fibroblasts - pathology | Fibroblasts - drug effects | Gingiva - cytology | Protein Binding | Anti-Bacterial Agents - pharmacology | Gingiva - microbiology | Biodegradation | Biofilms | Peptides | Antibiotics | Teeth | Antimicrobial peptides | Fibroblasts | Antibacterial activity | Hydroxyapatite | Gingiva | Retention | Saliva
ADHESION | CELLS | BACTERIA | MULTIDISCIPLINARY SCIENCES | STREPTOCOCCUS-MUTANS BIOFILMS | GROWTH | PREVENTION | DECAPEPTIDE KSL | IDENTIFICATION | EXPRESSION | RGD | Plankton - drug effects | Streptococcus mutans - growth & development | Actinomyces viscosus - drug effects | Humans | Biofilms - growth & development | Lactobacillus acidophilus - drug effects | Delayed-Action Preparations - chemistry | Saliva - chemistry | Plankton - growth & development | Streptococcus sanguis - growth & development | Microbial Sensitivity Tests | Streptococcus sanguis - drug effects | Delayed-Action Preparations - pharmacology | Saliva - microbiology | Fibroblasts - microbiology | Lactobacillus acidophilus - growth & development | Actinomyces viscosus - growth & development | Biofilms - drug effects | Amino Acid Sequence | Antimicrobial Cationic Peptides - chemistry | Antimicrobial Cationic Peptides - pharmacology | Cells, Cultured | Durapatite - chemistry | Streptococcus mutans - drug effects | Fibroblasts - pathology | Fibroblasts - drug effects | Gingiva - cytology | Protein Binding | Anti-Bacterial Agents - pharmacology | Gingiva - microbiology | Biodegradation | Biofilms | Peptides | Antibiotics | Teeth | Antimicrobial peptides | Fibroblasts | Antibacterial activity | Hydroxyapatite | Gingiva | Retention | Saliva
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Loading RightsCaries Research, ISSN 0008-6568, 03/2015, Volume 49, Issue 2, pp. 165 - 176
A selected group of oral bacteria commonly associated with dental health is capable of producing alkali via the arginine deiminase system (ADS), which has a...
Original Paper | Biofilm | Microflora | Caries | Arginine deiminase | Plaque | STREPTOCOCCUS-GORDONII | BACTERIA | DENTAL PLAQUE | ALKALI PRODUCTION | CHILDREN | CARIES EXPERIENCE | CHILDHOOD CARIES | PERMANENT TEETH | DENTISTRY, ORAL SURGERY & MEDICINE | ARGININE DEIMINASE SYSTEM | UREA | DMF Index | Hydrolases - genetics | Streptococcus - growth & development | Humans | Streptococcus intermedius - enzymology | Streptococcus sanguis - enzymology | Oxygen - metabolism | Streptococcus sanguis - growth & development | Dental Plaque - microbiology | Streptococcus - classification | Adult | Bacteriological Techniques | Hydrolases - metabolism | Dental Caries - microbiology | Carbohydrate Metabolism | Streptococcus gordonii - growth & development | Streptococcus gordonii - enzymology | Streptococcus - enzymology | Biofilms | Gene Expression Regulation, Enzymologic - genetics | Homeostasis - physiology | RNA, Ribosomal, 16S - genetics | Arginine - metabolism | Hydrogen-Ion Concentration | Streptococcus intermedius - growth & development | plaque | biofilm | microflora | caries
Original Paper | Biofilm | Microflora | Caries | Arginine deiminase | Plaque | STREPTOCOCCUS-GORDONII | BACTERIA | DENTAL PLAQUE | ALKALI PRODUCTION | CHILDREN | CARIES EXPERIENCE | CHILDHOOD CARIES | PERMANENT TEETH | DENTISTRY, ORAL SURGERY & MEDICINE | ARGININE DEIMINASE SYSTEM | UREA | DMF Index | Hydrolases - genetics | Streptococcus - growth & development | Humans | Streptococcus intermedius - enzymology | Streptococcus sanguis - enzymology | Oxygen - metabolism | Streptococcus sanguis - growth & development | Dental Plaque - microbiology | Streptococcus - classification | Adult | Bacteriological Techniques | Hydrolases - metabolism | Dental Caries - microbiology | Carbohydrate Metabolism | Streptococcus gordonii - growth & development | Streptococcus gordonii - enzymology | Streptococcus - enzymology | Biofilms | Gene Expression Regulation, Enzymologic - genetics | Homeostasis - physiology | RNA, Ribosomal, 16S - genetics | Arginine - metabolism | Hydrogen-Ion Concentration | Streptococcus intermedius - growth & development | plaque | biofilm | microflora | caries
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Loading RightsColloids and Surfaces B: Biointerfaces, ISSN 0927-7765, 04/2017, Volume 152, pp. 354 - 366
In this study, titanium (Ti) was modified with biofunctional and novel surface by micro-arc oxidation (MAO) and glow discharge plasma (GDP) and we tested the...
Titanium | Glow discharge plasma | Biofilms | Micro-arc oxidation | MATERIALS SCIENCE, BIOMATERIALS | CHEMISTRY, PHYSICAL | GLOW-DISCHARGE | PELLICLE PROTEINS | IN-VITRO | ELECTROLYTIC OXIDATION | CANDIDA-ALBICANS | BIOPHYSICS | ACTINOMYCES-NAESLUNDII | ARC OXIDIZED TITANIUM | STREPTOCOCCUS-SANGUIS | BACTERIAL ADHESION | FREE-ENERGY | Cell Line | Microscopy, Electron, Scanning | Oxidation-Reduction | Biofilms - growth & development | Titanium - chemistry | Actinomyces - growth & development | Dental Implants - microbiology | Streptococcus sanguis - growth & development | Bacterial Adhesion | Microscopy, Confocal | Animals | Surface Properties | Microscopy, Atomic Force | Biocompatible Materials | Mice | Fusobacterium nucleatum - growth & development | Medical colleges | Engineering schools | Thin films | Proteins | Plasma physics | Dielectric films | Implant dentures | Analysis
Titanium | Glow discharge plasma | Biofilms | Micro-arc oxidation | MATERIALS SCIENCE, BIOMATERIALS | CHEMISTRY, PHYSICAL | GLOW-DISCHARGE | PELLICLE PROTEINS | IN-VITRO | ELECTROLYTIC OXIDATION | CANDIDA-ALBICANS | BIOPHYSICS | ACTINOMYCES-NAESLUNDII | ARC OXIDIZED TITANIUM | STREPTOCOCCUS-SANGUIS | BACTERIAL ADHESION | FREE-ENERGY | Cell Line | Microscopy, Electron, Scanning | Oxidation-Reduction | Biofilms - growth & development | Titanium - chemistry | Actinomyces - growth & development | Dental Implants - microbiology | Streptococcus sanguis - growth & development | Bacterial Adhesion | Microscopy, Confocal | Animals | Surface Properties | Microscopy, Atomic Force | Biocompatible Materials | Mice | Fusobacterium nucleatum - growth & development | Medical colleges | Engineering schools | Thin films | Proteins | Plasma physics | Dielectric films | Implant dentures | Analysis
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Loading RightsBMC Microbiology, ISSN 1471-2180, 2010, Volume 10, Issue 1, pp. 111 - 111
Background: Microbial cell-cell interactions in the oral flora are believed to play an integral role in the development of dental plaque and ultimately, its...
SYSTEM | ORAL MICROBIAL COMMUNITIES | COMPETENCE DEVELOPMENT | DENTAL PLAQUE | GBPA GENE | GLUCOSYLTRANSFERASES | GENE-EXPRESSION | MICROBIOLOGY | ACID RESISTANCE | STRESS TOLERANCE | COMMUNICATION | Streptococcus mutans - pathogenicity | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Humans | Virulence | Adhesins, Bacterial - biosynthesis | Biofilms - growth & development | Gene Expression Profiling | Streptococcus oralis - growth & development | Antibiosis | Streptococcus sanguis - growth & development | Bacterial Proteins - biosynthesis | Lactobacillus casei - physiology | Streptococcus oralis - physiology | Lactobacillus casei - growth & development | Virulence Factors - biosynthesis | Dental caries | Physiological aspects | Genetic aspects | Virulence (Microbiology) | Research | Gene expression | Microbial mats | Causes and theories of causation | Streptococcus mutans | Diseases
SYSTEM | ORAL MICROBIAL COMMUNITIES | COMPETENCE DEVELOPMENT | DENTAL PLAQUE | GBPA GENE | GLUCOSYLTRANSFERASES | GENE-EXPRESSION | MICROBIOLOGY | ACID RESISTANCE | STRESS TOLERANCE | COMMUNICATION | Streptococcus mutans - pathogenicity | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Humans | Virulence | Adhesins, Bacterial - biosynthesis | Biofilms - growth & development | Gene Expression Profiling | Streptococcus oralis - growth & development | Antibiosis | Streptococcus sanguis - growth & development | Bacterial Proteins - biosynthesis | Lactobacillus casei - physiology | Streptococcus oralis - physiology | Lactobacillus casei - growth & development | Virulence Factors - biosynthesis | Dental caries | Physiological aspects | Genetic aspects | Virulence (Microbiology) | Research | Gene expression | Microbial mats | Causes and theories of causation | Streptococcus mutans | Diseases
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Effects of simulated microgravity on Streptococcus mutans physiology and biofilm structure
FEMS Microbiology Letters, ISSN 0378-1097, 10/2014, Volume 359, Issue 1, pp. 94 - 101
Abstract Long-term spaceflights will eventually become an inevitable occurrence. Previous studies have indicated that oral infectious diseases, including...
dental caries | mutacin production | biofilm architecture | interspecies competition | acid tolerance | astronauts | Dental caries | Astronauts | Biofilm architecture | Interspecies competition | Mutacin production | Acid tolerance | TOLERANCE | MICROBIOLOGY | VIRULENCE | REGULATOR | COMPETENCE DEVELOPMENT | GENE | BACTERIOCIN PRODUCTION | GROWTH | STRESS | EXPRESSION | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Streptococcus mutans - physiology | Humans | Biofilms - growth & development | Weightlessness | Antibiosis | Streptococcus sanguis - growth & development | Physiological aspects | Gene expression | Analysis
dental caries | mutacin production | biofilm architecture | interspecies competition | acid tolerance | astronauts | Dental caries | Astronauts | Biofilm architecture | Interspecies competition | Mutacin production | Acid tolerance | TOLERANCE | MICROBIOLOGY | VIRULENCE | REGULATOR | COMPETENCE DEVELOPMENT | GENE | BACTERIOCIN PRODUCTION | GROWTH | STRESS | EXPRESSION | Streptococcus sanguis - physiology | Streptococcus mutans - growth & development | Streptococcus mutans - physiology | Humans | Biofilms - growth & development | Weightlessness | Antibiosis | Streptococcus sanguis - growth & development | Physiological aspects | Gene expression | Analysis
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Antibacterial activity of particulate Bioglass ® against supra- and subgingival bacteria
Biomaterials, ISSN 0142-9612, 2001, Volume 22, Issue 12, pp. 1683 - 1687
Particulate Bioglass is a bioactive material used in the repair of periodontal defects. This material undergoes a series of surface reactions in an aqueous...
Bioactive glass | Periodontal | Antibacterial | Implant | bioactive glass | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | antibacterial | periodontal | IMPLANTS | implant | Periodontal Diseases - therapy | Streptococcus mutans - growth & development | Actinomyces viscosus - drug effects | Humans | Streptococcus mutans - isolation & purification | Biocompatible Materials - pharmacology | Streptococcus mutans - drug effects | Actinomyces viscosus - isolation & purification | Ceramics - pharmacology | Streptococcus sanguis - isolation & purification | Saliva, Artificial | Streptococcus sanguis - growth & development | Microbial Sensitivity Tests | Anti-Bacterial Agents | Streptococcus sanguis - drug effects | Bone Cements - pharmacology | Culture Media | Gingiva - microbiology | Actinomyces viscosus - growth & development | Hydrogen-Ion Concentration
Bioactive glass | Periodontal | Antibacterial | Implant | bioactive glass | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | antibacterial | periodontal | IMPLANTS | implant | Periodontal Diseases - therapy | Streptococcus mutans - growth & development | Actinomyces viscosus - drug effects | Humans | Streptococcus mutans - isolation & purification | Biocompatible Materials - pharmacology | Streptococcus mutans - drug effects | Actinomyces viscosus - isolation & purification | Ceramics - pharmacology | Streptococcus sanguis - isolation & purification | Saliva, Artificial | Streptococcus sanguis - growth & development | Microbial Sensitivity Tests | Anti-Bacterial Agents | Streptococcus sanguis - drug effects | Bone Cements - pharmacology | Culture Media | Gingiva - microbiology | Actinomyces viscosus - growth & development | Hydrogen-Ion Concentration
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Loading RightsCaries Research, ISSN 0008-6568, 02/2018, Volume 52, Issue 1-2, pp. 88 - 101
Arginine metabolism via the arginine deiminase system (ADS) of oral bacteria generates ammonia, which can increase the pH of oral biofilms and decrease the...
Original Paper | Biofilm | Dental caries | Bacteria | Antagonism | Arginine | INTERSPECIES COMPETITION | ALKALI PRODUCTION | GORDONII | BACTERIAL | CARIES | IN-VITRO | PERMANENT TEETH | DENTAL BIOFILM | DENTISTRY, ORAL SURGERY & MEDICINE | ARGININE DEIMINASE SYSTEM | HYDROGEN-PEROXIDE PRODUCTION | Symbiosis | Streptococcus mutans - metabolism | Streptococcus mutans - growth & development | Streptococcus - growth & development | Biofilms - growth & development | Arginine - metabolism | Streptococcus - metabolism | Hydrogen Peroxide - metabolism | Hydrogen-Ion Concentration | Streptococcus sanguis - growth & development | Oxidases | Advertising executives | Physiological aspects | Glucose | Virulence (Microbiology) | Galactose | Dextrose | dental caries | arginine | bacteria | antagonism | biofilm
Original Paper | Biofilm | Dental caries | Bacteria | Antagonism | Arginine | INTERSPECIES COMPETITION | ALKALI PRODUCTION | GORDONII | BACTERIAL | CARIES | IN-VITRO | PERMANENT TEETH | DENTAL BIOFILM | DENTISTRY, ORAL SURGERY & MEDICINE | ARGININE DEIMINASE SYSTEM | HYDROGEN-PEROXIDE PRODUCTION | Symbiosis | Streptococcus mutans - metabolism | Streptococcus mutans - growth & development | Streptococcus - growth & development | Biofilms - growth & development | Arginine - metabolism | Streptococcus - metabolism | Hydrogen Peroxide - metabolism | Hydrogen-Ion Concentration | Streptococcus sanguis - growth & development | Oxidases | Advertising executives | Physiological aspects | Glucose | Virulence (Microbiology) | Galactose | Dextrose | dental caries | arginine | bacteria | antagonism | biofilm
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Loading RightsMaterials Science & Engineering C, ISSN 0928-4931, 11/2015, Volume 56, pp. 114 - 124
Although smoking promotes deleterious effect to bone healing, there is a lack of study investigating its role on the implant structure and biofilm growth. We...
Corrosion | Biofilm | Electrochemistry | Cotinine | Dental implants | Nicotine | Caffeine | STREPTOCOCCUS-MUTANS | MATERIALS SCIENCE, BIOMATERIALS | PORPHYROMONAS-GINGIVALIS | TOBACCO | IN-VITRO | CANDIDA-ALBICANS | SUBGINGIVAL BIOFILM | PURE TITANIUM | CORROSION BEHAVIOR | SURFACES | Biofilms - drug effects | Humans | Oxides - chemistry | Titanium - therapeutic use | Dental Implants - microbiology | Peri-Implantitis - microbiology | Cotinine - pharmacology | Nicotine - pharmacology | Streptococcus sanguis - growth & development | Peri-Implantitis - chemically induced | Streptococcus sanguis - drug effects | Electric Capacitance | Surface Properties - drug effects | Caffeine - pharmacology | Electrochemistry - methods | Electrochemical reactions | Chemical properties | Corrosion and anti-corrosives | Corrosion resistance | Biofilms | Pitting (corrosion) | Bacteria | Smoking
Corrosion | Biofilm | Electrochemistry | Cotinine | Dental implants | Nicotine | Caffeine | STREPTOCOCCUS-MUTANS | MATERIALS SCIENCE, BIOMATERIALS | PORPHYROMONAS-GINGIVALIS | TOBACCO | IN-VITRO | CANDIDA-ALBICANS | SUBGINGIVAL BIOFILM | PURE TITANIUM | CORROSION BEHAVIOR | SURFACES | Biofilms - drug effects | Humans | Oxides - chemistry | Titanium - therapeutic use | Dental Implants - microbiology | Peri-Implantitis - microbiology | Cotinine - pharmacology | Nicotine - pharmacology | Streptococcus sanguis - growth & development | Peri-Implantitis - chemically induced | Streptococcus sanguis - drug effects | Electric Capacitance | Surface Properties - drug effects | Caffeine - pharmacology | Electrochemistry - methods | Electrochemical reactions | Chemical properties | Corrosion and anti-corrosives | Corrosion resistance | Biofilms | Pitting (corrosion) | Bacteria | Smoking
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